3

Is __setattr__ called when an existing attribute is incremented?

I have a class called C, and I'm trying to overload __setattr__. This is a section of code from inside the class C:

class C:

    def bump(self):
        self.a += 1
        self.b += 1
        self.c += 1

    def __setattr__(self,name,value):
        calling = inspect.stack()[1]
        if 'private_' in name:
            raise NameError("\'private_\' is in the variable name.")
        elif '__init__' in calling.function:
            self.__dict__['private_' + name] = value
        elif name.replace('private_', '') in self.__dict__:
            if self.in_C(calling):
                if name.replace('private_', '') in self.__dict__.keys():
                    old_value = self.__dict__[name.replace('private_', '')]
                    new_value = old_value + value
                    self.__dict__[name.replace('private_', '')] = new_value
                else:
                    self.__dict__[name.replace('private_','')] = value
            else:
                raise NameError()
        else:
            self.__dict__[name] = value

__setattr__, according to the Python docs,

object.__setattr__(self, name, value): Called when an attribute assignment is attempted. This is called instead of the normal mechanism (i.e. store the value in the instance dictionary). name is the attribute name, value is the value to be assigned to it.

I know you can assign a value to a variable (ex: C.__dict__[name] = value), but what about when an existing attribute is incremented, like self.a += 1 in bump()?

Assuming that the attributes a, b, and c already already defined, I called bump(), which then called __setattr__. However, I get this error:

Error: o.bump() raised exception TypeError: unsupported operand type(s) for +=: 'NoneType' and 'int'

Is setattr called when an existing attribute is incremented? If so, how would I increment the existing attribute inside setattr?

Note: Assume that bump() is called after a, b, and c are defined. Also, in_C(calling) is a function that checks if __setattr__ was called from __init__, some method inside C, or a method outside of C.

Tell me if any further clarification is needed.

  • Is this Python 2 or 3? If it's 2, class C: creates an old-style class. – ivan_pozdeev Apr 29 '17 at 2:56
  • What's the point of that code actually ? – bruno desthuilliers Apr 29 '17 at 6:28
5

Python: Is __setattr__ called when an existing attribute is incremented?

The answer is yes. This is easily seen with a simplified version of your code:

class C(object):

    def __init__(self, a):
        object.__setattr__(self, 'a', a)

    def __setattr__(self, name, value):
        print('Setting {} to {}'.format(name, value))
        object.__setattr__(self, name, value)


c = C(10)
c.a += 1

Running that snippet produces:

Setting a to 11

The issue with the code you posted is that += calls __getattribute__ first before it calls __setattr__. That is what fails if the attribute doesn't already exist.

The solution is to make sure the attributes are initialized before the call to bump():

class C(object):

    def __init__(self, a, b, c):
        object.__setattr__(self, 'a', a)
        object.__setattr__(self, 'b', a)
        object.__setattr__(self, 'c', a)

In addition to that fix, there are other errors as well (in inspect for example) but this should get you started.

  • 1
    Python developer cheat mode! :) – Grimmy Apr 29 '17 at 2:42
  • Why the dirty hack? Isn't self.a=a good enough? If that's due to broken logic in __setattr__, that logic needs fixing instead rather than piling up more hacks on top of it. – ivan_pozdeev Apr 29 '17 at 2:50
  • @ivan_pozdeev Whew, that seems a little judgmental ;-) The answer is that whenever altering _setattr_, it changes how the _init_ method is able to save the attributes in the first place. Depending on what the code is doing in _setattr_, the _init_ is broken without the code I posted. Try it and see. – Raymond Hettinger Apr 29 '17 at 2:53
  • 1
    @ivan_pozdeev It is a standard technique when programming _setattr_. There are a number of examples in the standard library. – Raymond Hettinger Apr 29 '17 at 2:58
  • 2
    @disbeliever I count 13 uses of object._setattr_ in the Py3.6 source tree: $ ack --type=python 'object.__setattr__'. Or see this answer by another core developer: stackoverflow.com/a/7559315/1001643 . Or just keep downvoting correct answers. – Raymond Hettinger Apr 29 '17 at 4:22
0

Though it may seem that

a += 1

is equivalent to a.__iadd__(1) (if a has __iadd__), it's actually equivalent to:

a = a.__iadd__(1)    # (but `a` is only evaluated once.)

It's just that for mutable types, __iadd__ returns the same object, so you don't see a difference.

Thus, if the target is c.a, c's __setattr__ is called. Likewise, __setitem__ is called if you do something like c['a']+=1.

This is done because Python has immutable types, for which an augmented assignment would otherwise do nothing.

This is documented alright in the grammar reference entry for augmented assignments (emphasis mine):

An augmented assignment evaluates the target (which, unlike normal assignment statements, cannot be an unpacking) and the expression list, performs the binary operation specific to the type of assignment on the two operands, and assigns the result to the original target. The target is only evaluated once.

To illustrate:

In [44]: class C(object):
    ...:     def __init__(self,a):
    ...:         self.a=a
    ...:     def __setattr__(self,attr,value):
    ...:         print "setting `%s' to `%r'"%(attr,value)
    ...:         super(C,self).__setattr__(attr,value)
    ...:     def __setitem__(self,key,value):
    ...:         print "setitem"
    ...:         return setattr(self,key,value)
    ...:     def __getitem__(self,key):
    ...:         return getattr(self,key)
    ...:

In [45]: c=C([])
setting `a' to `[]'

In [46]: c['a']+=[1]
setitem
setting `a' to `[1]'

In [29]: class A(int):
    ...:     def __iadd__(s,v):
    ...:         print "__iadd__"
    ...:         return int.__add__(s,v)
    ...:     def __add__(s,v):
    ...:         print "__add__"
    ...:         return int.__add__(s,v)
    ...:

In [30]: c.a=A(10)
setting `a' to `10'

In [31]: c.a+=1
__iadd__
setting `a' to `11'

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